An ejection device includes an ejection element for spreading apart a folding door from a closed position. At least two door wings are arranged in a common closing plane, towards an open position, and the at least two door wings form an angle different from 180? relative to each other. The ejection element can be acted upon by an energy storage member to be manually loaded by an operator, and the ejection device includes a locking device for releasably locking the ejection element against the force of the loaded energy storage member. The locking device can be unlocked by applying pressure to the folding door. The ejection device includes a movably-mounted loading element for loading the energy storage member by folding together the folding door. The ejection element and the loading element are spatially separated constructional units, and the ejection element is a pivotally mounted ejection lever.

The invention relates to an ejection device for ejecting a movable furniture part from a closed position into an open position along an opening path, comprising a support and a coupling device for coupling the ejection device to the movable furniture part. The coupling device has a coupling piece which can be moved relative to the support and a coupling counter piece which is arranged on the movable furniture part or on a furniture body. The coupling device has a coupling position and a decoupling position, and the ejection device can be coupled to the movable furniture part via the coupling device in the coupling position. The ejection device also comprises a controller, by means of which the coupling device can be switched depending on the opening path, and the coupling device reaches the decoupling position from the coupling position in the event of a specified opening path.

An ejection device includes a support formed as a housing; an ejection element for ejecting the movable furniture part from a closed position into an open position along an ejection path; an ejection force accumulator which applies a force to the ejection element in the opening direction of the movable furniture part; and a clamping device for clamping the ejection force accumulator. The clamping device has a clamping element to be coupled to the movable furniture part, and a movement transmission element, in particular a rotatable movement transmission element, between the clamping element and the ejection element. The clamping element and the ejection element can be moved in opposite directions when coupled by the movement transmission element when the ejection force accumulator is clamped, and the ejection element, the movement transmission element, and the clamping element are moveable together relative to the support over a first part of the ejection path.

A door pop-up system includes a check link, which is rotatably coupled to a body of a vehicle, and a pressure member, which is rotatably arranged inside a door. The check link has a tip portion to enter the inside of the door. The pressure member presses a tip of the check link in a movement direction of the check link in which the check link moves as the door in a closed position is actuated to be opened. The door in a closed position is actuated to be opened by rotation of the pressure member and pressing of the tip of the check link with the pressure member. The pressure member has a pressure surface at which the tip of the check link is pressed. The pressure surface has a restriction surface to restrict displacement of the check link in a height direction.

A sliding door closing device having an easy door opening function with an opening system. The closing device provides a slider with an attachment and gripper on one side of the device, and a properly shaped support of a moving roller on the other side of the device. A pusher contacts a roller support of the roller with a slider gripper and an opening spring and choke. The opening system allows for the opening of a door by pushing the door on vertical strip or on the edge.

A drive device for a movable furniture part has a lockable ejection device for ejecting the movable furniture part from a closed position into an open position. The ejection device can be unlocked by pressing the movable furniture part into an over-pressed position situated behind the closed position in the closing direction. A blocking element is provided which has a blocking position in which the blocking element prevents the unlocking of the ejection device upon reaching the pressed-over position, and which has a release position in which the ejection device can be unlocked upon reaching the pressed-over position.

A sliding arrangement, in particular a slide-out device for drawers, sliding doors, etc., includes a sliding piece and a pulling arrangement which can be coupled together by a coupling piece. The pulling arrangement can be placed in a resiliently pretensioned manner in a parking position and can be blocked in the parking position by a locking element. In order to ensure a reliable movement of a drawer or the like into the closure position, the locking element may be locked in the parking position of the pulling arrangement by a bar.

A device for moving a movable furniture part, the device including a force accumulator such that by way of the fitted device the furniture part under the action of the force accumulator is capable of being put in the opening direction, and wherein the device has a locking assembly for locking a tensioned position of the force accumulator, in which the force accumulator is charged for the opening movement of the furniture part, wherein the tensioned position is unlockable. A locking member of the locking assembly, and a movable lever of the device, which is coupled to the force accumulator, are present in an interacting manner such that in the locked tensioned position of the force accumulator, the locking member assumes a locking position, and the lever assumes a standby position in which cancelling of the standby position of the lever is blocked by the locking member.

An actuation device for a flap mounted pivotably on a compartment, with a push-push kinematic, includes a first actuation part to be fastened on the flap and a second actuation part to be fastened on the component. The first actuation part engages with the second actuation part when the flap is moved from its opened position into its closed position, so that after a first stroke of the first actuation part in the direction of the second actuation part and a subsequent backstroke of the first actuation part, the actuation parts are held on each other in an arresting position. The arresting position is released by a second stroke of the first actuation part in the direction of the second actuation part so that the flap can be moved into its opened position, wherein the first actuation part and the second actuation part are disengaged.

Drive mechanism for a movable furniture part, in particular a drawer, having a first and a second lockable pushing-out mechanism and a synchronizing mechanism for synchronizing the two pushing-out mechanisms, wherein the synchronizing mechanism has a synchronizing rod and a first and a second synchronizing element, which can be connected to the synchronizing rod, and wherein relative movement takes place between the synchronizing elements and the pushing-out mechanisms during synchronizing operation, wherein, in an active synchronizing mode, during synchronizing operation, movement is transmitted from the first pushing-out mechanism, via the first synchronizing element, the synchronizing rod and the second synchronizing element, to the second pushing-out mechanism and, in an inactive synchronizing mode, the synchronizing rod is removed and the synchronizing elements each remain in contact with one of the pushing-out mechanisms.